Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelet glycoprotein (GP) VI is a so-far uncharacterized 62-kDa membrane protein, whose deficiency results in selective impairment in collagen-induced platelet aggregation. Our group previously reported a human polyclonal antibody (anti-p62 IgG) that induces activation of normal, but not of GPVI-deficient, platelets in an Fc-independent manner. The F(ab')2 fragments of this antibody (F(ab')2-anti-p62) stimulated tyrosine phosphorylation of numerous proteins, which was not prevented even in the presence of cAMP-increasing agents such as prostacyclin. Pretreatment of platelets with the protein-tyrosine kinase (PTK) inhibitor tyrphostin A47 completely abolished F(ab')2-anti-p62-induced platelet aggregation in parallel with dose-dependent inhibition of protein-tyrosine phosphorylation, indicating an essential requirement of PTK activity for generating GPVI-mediated signaling. We found that two cytosolic PTKs, c-Src and Syk, became rapidly activated in response to F(ab')2-anti-p62 in a way insensitive to elevation of cAMP. In contrast, in the presence of prostacyclin, F(ab')2-anti-p62 did not stimulate tyrosine phosphorylation of the focal adhesion kinase. cAMP-insensitive activation of c-Src and Syk was also observed in collagen but not thrombin-stimulated platelets. Moreover, either F(ab')2-anti-p62 or collagen stimulated cAMP-insensitive tyrosine phosphorylation of phospholipase C-gamma 2. These results indicate that the receptor-mediated activation of several PTKs in platelets is regulated through a cAMP-sensitive or -insensitive mechanism depending on the nature of each stimulus, and also suggest that GPVI engagement is coupled to cAMP-insensitive activation of c-Src and Syk accompanied by tyrosine phosphorylation of numerous substrates including phospholipase C-gamma 2 in a manner similar to collagen stimulation.
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PMID:Cyclic AMP-insensitive activation of c-Src and Syk protein-tyrosine kinases through platelet membrane glycoprotein VI. 749 87

The nature of the binding sites for lipopolysaccharide (LPS) on human monocytes was investigated using fluorescein isothiocyanate (FITC)-labelled LPS from Salmonella minnesota R595 (ReLPS). In the absence of serum, ReLPS bound to monocytes and this interaction was trypsin sensitive. A concentration of 0.1 mg/ml resulted in a 90% loss of LPS binding, while low concentrations increased this binding. Trypsin-treated monocytes recovered FITC-ReLPS binding after 20 hr culture, which was abrogated in the presence of cycloheximide and actinomycin D. This showed that de novo protein and mRNA synthesis were essential. A number of different proteins have been implicated in cellular binding of LPS to monocytes. In this paper we show that CD14 is not involved in direct binding of FITC-ReLPS to monocytes, since anti-CD14 monoclonal antibody (mAb) (3C10) and removal of most of cell-surface CD14 by phosphatidylinositol-specific phospholipase C did not prevent FITC-ReLPS binding. Furthermore, LPS also bound to CD14-deficient cells from a patient with paroxysmal nocturnal haemoglobinuria (PNH). FITC-ReLPS binding was not mediated by the CD11/CD18 complex since mAb to the alpha and beta chains of the CD11/CD18 complex did not alter the binding of FITC-ReLPS to cells. These observations indicate that ReLPS may interact with monocyte membrane protein(s) in the absence of serum. This binding site(s) for LPS might be different from those previously described by others.
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PMID:Serum-independent binding of lipopolysaccharide to human monocytes is trypsin sensitive and does not involve CD14. 750 49

Decay-accelerating factor (DAF) is a membrane protein that protects host cells from attack by its own complement. Although DAF expression on endothelial cells is thought to increase pathophysiologically, little is known about the natural mediators that modulate DAF expression on endothelial cells. In this study, we evaluated the effect of histamine on DAF expression on human umbilical vein cells (HUVEC). HUVEC were cultured with histamine, and DAF expression on HUVEC was determined by flow cytometry after immunostaining with a mAb to DAF. DAF expression on HUVEC was increased at 10 microM histamine, and the final level was increased time-dependently by 150% to 200% after a 24-h incubation with 100 microM histamine. The histamine-induced DAF expression was inhibited by actinomycin D and cycloheximide and accompanied by an increase in the DAF mRNA level, indicating that both transcription and translation are required. In addition, the histamine-induced DAF expression was inhibited by pyrilamine, an H1 blocker, but not by cimetidine, an H2 blocker, indicating that histamine induces the DAF expression through H1 receptors. We also demonstrated that the turnover of DAF is faster than that of MCP and CD59, and DAF is released into the culture supernatant. DAF is a glycosylphosphatidylinositol-linked protein that is released from HUVEC by a phosphatidylinositol-specific phospholipase C. Although HUVEC also contain the glycosylphosphatidylinositol-anchored complement inhibitor CD59, this was not released during a 24-h incubation, suggesting that the shedding of DAF from HUVEC is not caused by PI-PLC but by other enzymes, possibly proteinases. These results suggest that histamine, which is released from mast cells and basophils by complement-derived anaphylatoxins, increases the complement defense ability of endothelial cells by increasing their levels of DAF expression.
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PMID:Decay-accelerating factor on human umbilical vein endothelial cells. Its histamine-induced expression and spontaneous rapid shedding from the cell surface. 750 66

A monoclonal antiplatelet antibody (MA-13G8E1) is described that dose-dependently induces platelet aggregation and serotonin release in an Fc-independent fashion. Whereas platelets were equally aggregated by F(ab')2 fragments of this monoclonal antibody (MoAb), its Fab fragments, on the other hand, were inactive, indicating that divalent interaction is an essential requirement to induce platelet activation by MA-13G8E1. In addition, we could show that platelet epitope cross-linking by MA-13G8E1 occurred on the same platelet. MA-13G8E1 stimulated platelet phospholipase C (PLC) and induced activation of protein kinase C (PKC), both of which were almost unaffected by aspirin pretreatment. Furthermore, PLC activation appeared to be a direct antibody-mediated effect, since intracellular Ca2+ rises were not inhibited by EGTA, cytochalasin B, or aggregation-blocking MA-16N7C2 (antiglycoprotein [anti-GP]IIb/IIa). The MA-13G8E1 antigen is constitutively expressed on resting platelets of different species (7,100 +/- 800 molecules per human platelet), but not on other cell types tested. Both immunoprecipitation and affinity isolation by MA-13G8E1 showed two low-molecular weight proteins (45 and 36 kD), having slightly acidic isoelectric pH levels (4.5 to 5.5) and forming multimolecular complexes. In conclusion, we found an MoAb that is able to induce platelet activation in an Fc-independent fashion. The mechanism involves cross-linking of a hitherto undescribed platelet membrane protein, leading to PLC and PKC stimulation.
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PMID:Fc-independent cross-linking of a novel platelet membrane protein by a monoclonal antibody causes platelet activation. 751 18

Placental alkaline phosphatase (PLAP) is initially synthesized as a precursor (proPLAP) with a C-terminal extension. We constructed a recombinant cDNA which encodes a chimeric protein (alpha GL-PLAP) comprising rat alpha 2u-globulin (alpha GL) and the C-terminal extension of PLAP. Two molecular species (25 kDa and 22 kDa) were expressed in the COS-1 cell transfected with the cDNA for alpha GL-PLAP. Only the 22 kDa form was labelled with both [3H]stearic acid and [3H]ethanolamine. Upon digestion with phosphatidylinositol-specific phospholipase C the 22 kDa form was released into the medium, indicating that this form is anchored on the cell surface via glycosylphosphatidylinositol (GPI). A specific IgG raised against a C-terminal nonapeptide of proPLAP precipitated the 25 kDa form but not the 22 kDa form, suggesting that the 25 kDa form is a precursor retaining the C-terminal propeptide. When a mutant alpha GL-PLAP, in which the aspartic acid residue is replaced with tryptophan at a putative cleavage/attachment site, was expressed in COS-1 cells, the 25 kDa precursor was the only form found inside the cell and retained in the endoplasmic reticulum, as judged by immunofluorescence microscopy. In vitro translation programmed with mRNAs coding for the wild-type and mutant forms of alpha GL-PLAP demonstrated that the C-terminal propeptide was cleaved from the wild-type chimeric protein, but not from the mutant one. This gave rise to the 22 kDa form attached with a GPI anchor, suggesting that GPI is covalently linked to the aspartic acid residue (Asp159) of alpha GL-PLAP. Taken together, these results indicate that the C-terminal propeptide of PLAP functions as a signal to render alpha GL a GPI-linked membrane protein in vitro and in vivo in cultured cells, and that the chimeric protein constructed in this study may be useful for elucidating the mechanism underlying the cleavage of the propeptide and attachment of GPI, which occur in the endoplasmic reticulum.
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PMID:Conversion of secretory proteins into membrane proteins by fusing with a glycosylphosphatidylinositol anchor signal of alkaline phosphatase. 751 12

B lymphocytes must respond to low concentrations of antigen despite having low affinity antigen receptors during the primary immune response. CD19, a B cell-restricted membrane protein of the immunoglobulin superfamily that associates with the antigen receptor complex, may help the B cell meet this requirement. Cross-linking CD19 to membrane immunoglobulin (mIg) lowers, by two orders of magnitude, the number of mIg that must be ligated to activate phospholipase C (PLC) or to induce DNA synthesis. CD19 is coupled, via protein tyrosine kinases (PTKs), to PLC and phosphatidylinositol 3' kinase (PI3' kinase), and it interacts with the Src-type nonreceptor PTK lyn. It also associates with two other membrane proteins, CR2 (complement receptor type 2, CD21), which permits nonimmunologic ligation of CD19, and TAPA-1, a member of the tetraspan family of membrane proteins. CR2 binds fragments of C3 that are covalently attached to glycoconjugates. This indirectly enables CD19 to be cross-linked to mIg after preimmune recognition of an immunogen by the complement system. CR2 also can be ligated by CD23, a lectin-like membrane protein that resides on cells that may present antigen to B cells. TAPA-1 associates with several other membrane proteins on B and T cells, including MHC class II, CD4, and CD8, and it promotes Ca2(+)- and LFA-1-independent homotypic aggregation when ligated directly or indirectly through CD19 or CR2. This may facilitate interaction of the B cell with other cells essential for cellular activation. The formation of this membrane protein complex by representatives of three different protein families helps the B cell resolve its dilemma of combining broad specificity with high sensitivity.
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PMID:The CD19/CR2/TAPA-1 complex of B lymphocytes: linking natural to acquired immunity. 754 9

Inositol 1,4,5-triphosphate (IP3) is generated as a second messenger in many diverse cellular signalling pathways. In general these signalling pathways activate a membrane-bound phospholipase C, which cleaves the phospholipid phosphatidylinositol bisphosphate to generate IP3 and diacylglycerol. IP3 binds to a specific intracellular receptor, which is a membrane protein and a ligand-gated Ca2+ channel, that causes Ca2+ release from intracellular stores. The inositol 1,4,5-triphosphate receptor (IP3R) is thus an integral part of the IP3 signalling pathway and can be used as a marker to identify biological processes that use IP3 as a second messenger. We have used an affinity-purified antibody, directed against a bacterial fusion protein and containing 339 amino acids of the Drosophila IP3R, to detect this protein in adult heads and during embryonic and pupal development. Our results suggest that in Drosophila the IP3 signalling pathway is used during muscle development, primarily when myoblasts undergo rapid multiplication, in both embryos and pupae. In adults, IP3 is probably a second messenger in more than one sensory transduction pathway, as well as in other as yet undefined brain and muscle functions.
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PMID:The inositol 1,4,5-triphosphate receptor expression in Drosophila suggests a role for IP3 signalling in muscle development and adult chemosensory functions. 755 37

Antisera raised against detergent-extracted membrane fractions from the human intestinal epithelial cell line Caco-2 were used to screen a human colon cDNA library in a bacteriophage expression vector. This led to the identification, molecular cloning, and sequencing of a novel plasma membrane protein (p137) which was present in approximately equal amounts on the basolateral and apical surfaces of the cell. The pattern of extraction of p137 from membranes by Triton X-114 and its release from membranes after incubation with phosphatidylinositol-specific phospholipase C were consistent with it being a glycosylphosphatidylinositol-anchored membrane protein. Using antibodies raised against bacterial fusion proteins, it was shown that p137 was present on the cell surface as a reducible homodimer of 137 kDa subunits. There was constitutive release of p137 into the culture medium as a non-reducible 280-kDa entity. Pulse-chase experiments showed that newly synthesized p137 appeared at the basolateral side of a Caco-2 cell layer before appearing at the apical domain. Domain-specific surface biotinylation of Caco-2 cells at 4 degrees C, followed by chasing at 37 degrees C, demonstrated that p137 is capable of transcytosing in both directions across Caco-2 cells. The unusual plasma membrane domain distribution of this glycosylphosphatidylinositol-linked protein and its transcytosis characteristics demonstrate the existence of a previously uncharacterized apical to basolateral transcytotic pathway in Caco-2 cells.
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PMID:Identification and characterization of a novel protein (p137) which transcytoses bidirectionally in Caco-2 cells. 765 53

Glycosylphosphatidylinositol (GPI) membrane protein anchors are synthesized from sugar nucleotides and phospholipids in the ER and transferred to newly synthesized proteins destined for the cell surface. The topology of GPI synthesis in the ER was investigated using sealed trypanosome microsomes and the membrane-impermeant probes phosphatidylinositol-specific phospholipase C, Con A, and proteinase K. All the GPI biosynthetic intermediates examined were found to be located on the external face of the microsomal vesicles suggesting that the principal steps of GPI assembly occur in the cytoplasmic leaflet of the ER. Protease protection experiments showed that newly GPI-modified trypanosome variant surface glycoprotein was primarily oriented towards the ER lumen, consistent with eventual expression at the cell surface. The unusual topographical arrangement of the GPI assembly pathway suggests that a biosynthetic intermediate, possibly the phosphoethanolamine-containing anchor precursor, must be translocated across the ER membrane bilayer in the process of constructing a GPI anchor.
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PMID:The GPI anchor of cell-surface proteins is synthesized on the cytoplasmic face of the endoplasmic reticulum. 792 79

A1 adenosine receptors are in general coupled to inhibition of adenylyl cyclase, but have more recently been reported to be capable of also activating phospholipase C. The present study was done in order to investigate whether these different effects can be elicited by a single A1 receptor, or whether A1 receptor subtypes have to be invoked. The cDNA of a rat brain A1 adenosine receptor was stably expressed in CHO-cells, resulting in clones with varying receptor densities; a clone expressing 1.9 pmol receptors/mg membrane protein was used for further characterization. The ligand binding properties of the expressed receptors were typical for the rat A1 adenosine receptor. A1 receptor agonists caused a concentration-dependent inhibition of adenylyl cyclase activity in the membranes, with maximal inhibition by 70%. A1 receptor stimulation also caused concentration-dependent stimulation of inositol phosphate generation in these cells, with maximal effects of 300%. Both adenylyl cyclase inhibition and enhancement of inositol phosphate generation were essentially abolished after pretreatment of the cells with pertussis toxin. These results indicate that a single A1 adenosine receptor can couple to two effector pathways, and that both effectors are activated via pertussis toxin sensitive G proteins.
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PMID:A1 adenosine receptors expressed in CHO-cells couple to adenylyl cyclase and to phospholipase C. 793 54


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